ATXMEGA256A3U Datasheet, PDF(45/116 Page) ATMEL Corporation – 8/16-bit Atmel XMEGA A3U Microcontroller

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ATXMEGA256A3U Datasheet, PDF (45/116 Pages) ATMEL Corporation – 8/16-bit Atmel XMEGA A3U Microcontroller

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XMEGA A3U

27. ADC - 12-bit Analog to Digital Converter

27.1 Features

27.2 Overview

â¢ Two Analog to Digital Converters

â¢ 12-bit resolution

â¢ Up to 2 Million Samples Per Second

â 4 inputs can be sampled within 1.5Âµs

â Down to 2.5Âµs conversion time with 8-bit resolution

â Down to 3.5Âµs conversion time with 12-bit resolution

â¢ Differential and Single-ended input

â Up to 16 single-ended inputs

â 16x4 differential inputs without gain

â 16x4 differential input with gain

â¢ Built in differential gain stage

â 1/2x, 1x, 2x, 4x, 8x, 16x, 32x and 64x gain options

â¢ Single, continues and scan conversion options

â¢ 4 internal inputs

â Internal Temperature sensor

â DAC Output

â VCC voltage divided by 10

â 1.1V Bandgap voltage

â¢ 4 conversion channels with individual input control and result registers

â Enable 4 parallel configurations and results

â¢ Internal and external reference options

â¢ Compare function for accurate monitoring of user defined thresholds

â¢ Optional event triggered conversion for accurate timing

â¢ Optional DMA transfer of conversion results

â¢ Optional interrupt/event on compare result

There are two Analog to Digital Converters (ADCs) modules that can be operated simultane-

ously, individually or synchronized.

The ADC converts analog signals to digital values. The ADC has 12-bit resolution and is capable

of converting up to 2Million Samples Per Second (MSPS). The input selection is flexible, and

both single-ended and differential measurements can be done. For differential measurements

an optional gain stage is available to increase the dynamic range. In addition several internal

signal inputs are available. The ADC can provide both signed and unsigned results.

This is a pipelined ADC that consists of several consecutive stages. The pipelined design allows

high sample rate at a low System Clock frequency. It also means that a new input can be sam-

pled and a new ADC conversion started while other ADC conversions are still ongoing. This

remove dependencies between sample rate and propagation delay.

The ADC has four conversion channels (Channel 0-3) with individual input selection, result reg-

isters and conversion start control. The ADC can then keep and use four parallel configurations

and results, and this will ease use for applications with high data throughput or multiple modules

using the ADC independently. It is possible to use DMA to move ADC results directly to memory

or peripherals when conversions are done.

Both internal and external reference voltages can be used. An integrated temperature sensor is

available for use with the ADC. The output from the DAC, VCC/10 and the Bandgap voltage can

also be measured by the ADC.

8386AâAVRâ07/11

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